Pressure responsive valve



` DBC- `26, 1944 D. G. GRlswoLD 2,366,144

4 PRESSURE RESPONSIVE VALVE Filed May 1. '1940 2 sheets-sheet 1 A 'ITORNE YS Dec. 26, 1944. D Q GRISWOLD 2,366,144 v' PRES SURE RESPONS IVE VALVE Filed-May l, 1940 2 Sheets-Sheet 2 'Nimm ruption of flow or change in pressure.

Patented Dec. 26, 1944 nomia G. Griswold, Alhambra, ovm., asslzncr to gllarfton Manufacturingr Company, Alhambra.

Application May 1, 1940, Serial Nc; 332,824

v13 claims. (ci. 137-153) The present invention relates to check valves,

and more particularly to a self-governing check valve designed to operate eillciently and quietlyand to open automatically whenever the pressure on the inlet side of the valve is greater than that on the. outlet side `of the valve and to close automatically when the pressure conditions are reversed. A

One of the most common objections to known types of check valves is that they have Aa tendency to slam closedy whenever there is an inter- Such valves are usually constructedl so that the closing member or valve disc, whether it be hinged or movable bodily, travels in a direction opposite to that of nthe normal ow o! fluid to effect closing of the valve. In other words, theclosing member travels in the same direction as the attempted return ilow of fluid and the inertia oi the iiuid causes the disc to slam or Asuddenly strike against its seat. It is this sudden seating, resulting in the sudden stopping of the moving return stream, that sets up aback surge or a knock, producing what is commonly referred to as line shock" or water hammer. Aside from the undesirable noise incident to hammering, there is the more serious danger of the piping bursting from Vsudden excess pressure, or breaky ing as a result of vibratory strains imposed by repeated shock. This situation commonly occurs when a conventional check valve is used at the end of a long water line.` Furthermore, when the present check valve is independentl ofthe back surge or return ii'ow, and contrary to the action of other valves, it does not suddenly cut ci! the return flow. but does act directly thereon, closing slowly and positively at such a. rate as to gradually cut on the return iow; thereby' aviding damage to the valve and the pipe line.

One important advantage of the above action is that in a pulsating line, the valve disc or clos-` ing member normally does not have suflicient time to respond to the rate of ow change and it therefore remains partially or fully vopen without the disc touching the seat on every pulsation of the pump, as is the case with an ordinary type of check valve. In normal operation, the present valve is either fully open or fully closed. The fact that the valve is always wide open when the flow is in the normal direction constitutes a desirable advantage, in that it reduces the resistance to the ow of liquid and, therefore. results in lower pumping costs.

Valves constructed in accordance with the present invention operate upon a pressure dierential in the inlet and outlet sides of the valve. The valve disc or closing member of the valve is operated by a diaphragm which is responsive to the diierences in pressure. In one form of the valve, the outlet chamber of the valve is in direct communication with the diaphragm chamber, sothat corresponding pressures always exist in these two l chambers. In another form of the invention, a

such check valve is used at the discharge of a l pulsating pump, the valve disc is caused to strike its seat with every pulsation of the pump, producing frequent and repeated hammer-like blows on the valve disc and seat which quickly destroy' the valve.

In contrast, the check valve of the present invention is constructed so that it is impossible for the return iiowv to slam the valve shut and produce hammering or line shock. While in previous`V valves the Aclosing member has been directly urged against its seat by any attempted return ow and the closing member hasthus been caused to travel in the same direction as the return flow, the closing member of the valve'of the present inventlonlis positively moved in a direction opposite to and against such ow to eilect closing of the valve. Stated differently, the closing member o! the present -valve actually cuts oil? -iiow by movingl in the same direction as that of the fluid normally iiowing through the valve. The operation of the closing member of control means is employed for controlling the rateofA iiow oi thepressure uid to and from the diaphragm chamber so that both the yopening and y closing rate of the valve may be controlled.

The primary object of the invention'is to pro-1 vide a check valve which will be free from the above noted objections and which will have the advantage of controlling the flow of water or other liquid without producing chattering, line shock or hammering; These objections are overcom'e and theadvantazes obtained by providing a check valve whose closing action is definitely controlled so as to preclude line shock and hammering.

One of the important objects of the inventionA is to provide a check valve of the diaphragm type which is automatically responsive to the pressure o1' the medium passing therethrough and which will close quietly/against any return-flow.

Another object of the invention is provide a check valve in which both the ropening and closing action may be regulated and controlled so that at least the closing action will be uniformly assen-1 n slow, and the opening action substantially unretarded so that the valve can be reopened to its fullest extent without uidue delay.

A further object of the invention is to provide a check valve with a guided valve disc and a co operating seat and choke-washer arranged to eliminate noise during opening and closing.

A'still further object ,of the invention is to provide a pressure operated check valvedn which the stem projects outwardly beyond the valve body to indicate whether the valve is -open or shut, or in any position intermediate thereof.

-'Another object of the invention is to provide a check valve construction in which the period ofclosing and opening of the valve may be varied as desired to meet specific conditions; for example, in certain installations employing large diameter pipe lines of great length and valves of large size, atotal closing period of one to two minutes or moremay be necessary to cut off flow without producing linel shock or hammering, whereas, it may be desirable to have the valve open substantially immediately to resume flow. A further object of the invention is to provide a check valve which is positiveln its operation and which will not Waver or flutter between open and closed positions, but which in normal operation will be either completely closed or fully open; complete closing avoiding undesirable leakage through the valve, and full opening enabling the valie to operate with maximum efliciency without restricting or ixnpedirig flow` therethrough.

Another object of the invention-is to Vprovide a control vunit for use with a 'check valve for positively controlling the opening and closing time of the valve. v-

A still further object of valve to a' diaphragm chamber to effect opening` and closing of the valve Figure 2 is an enlarged fragmentary sectional view showing the details of construction of thevalve seat, the valve disc. and theAchoke-washer shown in Figure l;

Y Figure ,illustrates a modified form of stem construction which may be used in a valve of the type lshown in Figure'l to indicate the position of the valve disc relative to its seat;

`Figure 4 illustrates a further `modification of the valve shown in Figure 1 in which means is provided for regulating the rate of opening and closing of the valve;

Figure 5 is-a partial plan'view of the valve shown in Figure 4; and Y Figure 6 is a sc tional View ltaken on. the line -6-6 of Figure 5.through the valve control means.

Referring now to Figure 1` of the drawings,l thex letter B indicates the valve body and the numerals I and 2, respectively, indicate the inlet and outlet sides ofthe valve. The letter "C indicates'the cap of the valve and the letter D indicates a circular diaphragm. whose marginal Aportion is clamped between vthe body B and 'the cap C by any suitable number of cap screws 8.

the invention is to provide an automatic check valve which ,is com- The body B is provided at its inlet side I with a substantially vertical partition wall 4 forming an inlet chamber I and an angular wall portion 8 cooperating with the wall 4 to form an outlet chamber 2. The wall portions 4 and rare merged to providea circular opening 8 which is threaded `and adapted to receive an annular valve seat 1. The valve seat 'I is provided with a circular opening 8 which flares outwardly toward the bottom of the valve body as indicated at 8. The upper surface of the valve seat 1 adjacent the opening 8 is provided with a declining beveled portion I adapted to cooperate with a. valve disc Il to form a leakproof seal,I as will be explained more fully hereinafter. The valve disc 'I is further provided with circumferential projections 1' adapted to be engagedby a spanner wrench for tightly securing the seat in' the threaded opening 6. The valve body B hasI a threaded opening I2 axially aligned with the opening 8 in the valve .seat 'L in elongated plug I3 is threaded into the opening I2 and comprises a tubular guide portion I4 for one end I5 of a valve stem S. The cap member C also has a recess i6 counterbored at 1 to receive a guide bushing I8 for the upper end I9 of the valve stem S.

The recess I8 is located in the cap member C so that it is axially alignedfwith the tubular guide portion I4 and the opening 8 of vthe valve seat. The valve stem S has a threaded portion intermediate its lower`end I5 and its upper end I9. The end I5 is of slightly lless diameter than the threaded portion 20 and has a snug sliding t in the tubular guide portion I4 ofthe plug I3. The upper end I9 of .the valve stem is enlarged to provide a shoulder at 2| and, moreover, is `snugly guided in the bushing Iii.` Thus, the`plug I3 and bushing I8 are arranged' to guide the stem I8 during vertical movement.

An upper diaphragm supporting plate 22 is adapted to be received upon the stem S and to abut the shoulder 2| with the upper side thereof. The upper side of the diaphragm D is engaged with the lower side of the plate 22 and is provided with an aperture 2,3 through which the valve stemS extends. The lower side of the diaphragm D is adapted tolengage the upper ,side of a. lower diaphragm supporting plate 24, and the valve stem S extends through a. central boss 25 in said plate. The lower supporting plate 24 .,is also provided with a. channel 26 formed in the -lower side thereof to receive the valve disc II previously referred to. 'A combined clamping membervand choke-washer 28 `is adapted tol be mounted upon the stem S and to engage the .in-

lner marginal portion of the valve disc Il.

Clampingnuts 29 are threaded upon the portion 20 of the valve stem S and serve to retain the valve stem, the diaphragm supporting plates 22 and 24, Vthe valve disc II and the choke-washer 28 in assembled relation with the diaphragm D.

The outer diameterof theclamping member or.

choke-Washer 28 is preferably only slightly less than that 'of the opening 8 in the valve seat I.y

In a 6 inch valve, for example, the maximum radial clearance may be only three or four thousandths of an inch. The peripheral surface of the choke-washer 28 is preferably rounded, as indicated at 80, and` is tapered outwardly and upwardly from said rounded portion to substantially its upper outer edge as indicated at 3l (see Figure 2). The rounded and tapered peripheral portions of the choke-Washer 28 serve to `gradually cut gli the flow through'the opening 8,

. that in the inlet opening I' N cavity 4 I, passageway 3l,

returnrof nuid is facilita inlet chamber I disc II from its and the beveled portion lo of the valve seat 1 cooperates with the valve disc I I to reduce eddyassai valve stem S is pierced by one or more transverse.

openings 32 arranged to establish communication between the outlet chamber 2 of the valve and the vinterior of the guide.v 'I'hese openings obviously provide for free and unrestricted movement of the lower portion I5 of the valve stem in the guide I4. I

The valve body B, on the outlet side thereof, is provided with a passage 34 adapted to receive one end of a short section of tubing 35. The tubing 35 extends through an opening 36 in the diaphragm D and projects into a passageway 31 formed in the cap member C. A disc member 38 is mounted on the cap C by means of screws 39; The"disc 38, in cooperation with the body B and the cap C, form a valve'houslng means. The lower face of the ldisc 38 is recessed to receive a suitable gasket 40, so that afluid-tight seal is formed between the cap and `said disc. .A cavity 4I is formed in the disc 38 and an opening 42 of similar size is formed in the gasket 40. VOne end of the cavity 4I communicates with the passageway 3l and the opposite end of said cavity is in registration with a passageway 43 in the cap the outlet side 2 of ay 31, cavity 4 I, and passagevalve has been opened slightly, the pressure in the inlet chamber l' will become effective upon the choke-washer or clamping member. 28 and produce a further differential pressure effective to open the valve. As the valve stem S rises, it

gwill, of course, force the fluid from the recess I8 into the chamber 45 through the passageway 50.

With respect to closing of the valve, it will be understood that when the desired pressure has been attained in the outlet side 2 of the valve, or a static head in' excess of the inlet pressure exists on the outlet side of the valve, pressure will have been built` up correspondingly in the diaphragm chamber 45 by virtue of 'the fact that iluid underpressure passes from the outlet chamber 2' through the passageways 34, etc. previously enumerated.

During both the opening and closing ofthe valve, the valve disc II is guided by the stem S so that it uniformly disengages and contacts the face'df the seat l. The guiding of the valve disc II is important, especially during closing, because if the valve\disc is not constrained it will` Aseat upon one side rst, anda squeal or a noise comover, closing the valve against ow of the return member C. Thus, pressure fluid vmay pass from Y way 43 vto 'a diaphragm chamber 45 in the cap" member. A groove 4B inthe underside oi' the cap C communicates with the passageway 43 so that communication may be established between V the chambers 2' and 45, eventhough the diaphragm D may be in engagement with the underside o! the cap C.

The cap C is also provided with a 'cavity 48 d 1 shaped to receive the upper diaphragm supporting plate 22 when the valve is in open position. The end face of a boss 49 formed in said cavity serves as a stop engageable by said plate to limit the opening movement of the valve. A passageway 50 is arranged in said cap to establish communication between cavity 48 and the recess I8. The inner wall of the cap C, including the cavity 48, cooperates with the diaphragm D to form the chamber adapted to receive iiuid under' pressure for-.actuating said diaphragm tolcause the valve stem Sto move downwardly and bring the valve disc II into-c 'I and thus close the valve.

Figure 1 illustrates the check valve injits closed position. For illustrative purposes, let it be 4assumed thatthe outlet'side 2 of the valve is connected with a pipe ,line, pipe system, or other apparatus in which it is desired to maintain a given pressure. Let it be further assumed that the pressure in the outlet chamber 2' ofthe valve, has droppedY below the desir 34 toJ the outlet chamber, 2". This exhaust or ted by the pressure in the 24 and the lower side oi' thediaphragm D tending to bodily raise t he valve stem S and lift the valve seat to open the valve. After, the

ed pressure and below'r It willthen be apcription that a cor- 05 stream instead of in a direction with such iiow, eliminates slam andthe hammering incident to sudden checking of the return flow. The chokewasher 28 also contributes to quiet operation of the valve in that it `cooperates with the opening 8 in the valve seat to gradually restrict the ilow and substantially cut it oil.' before seating lof the valve disc II occurs, thereby eliminating any tendency of the valvedisc toilutter. y

Thus, it will be apparentthat a very simple typeof check Lvalve has been provided which is automatic in its operation and whichlis so constructed as to eliminate sudden closing of the valve with its accompanying hammering and line shocl.

Referring now to Figure 3 of the drawings, a

, modified form of stem construction isshown that The stem S'- is maintainedin leak-proof relation with the plug I3' by a stufiing box comprising packing material 52 received in a cavity 53 in the .plug I 3'and a gland nut 54 threadedly received in 4said plug and adapted to compress the packing. ontact with the valve seat .tube 35, and 'passageway .acting upwardly upon the plate i 52 to the extent necessarily toprevent leakage.

An indicator plate 56 is secured to the .plu'g' I3 by a screw 5'I. The lower end 58 of the indicator plate overlies the lower extremity of the valve stem S. The portion 58 of the indicator plate bears suitable indicia to'indicate the extent of opening of the valve. The indicia is arranged so 'as to cooperate with the, extremity of the valve stem S', to the end that the position of rthe valve disc II relative toits seat may be apparent at all times.

The valve stem arrangement of Figure 3, in ad` j dition to indicating the extent of opening of the valve, serves the` further purpose of providing a diiirential pressure through the action of the uid in the recess I6 vupon the upper endv of 4the stem.) l This construction permits the pressure in the diaphragm chamber 45 to act directly upon the stem to move lthe valve to closed position, the stem, in effect, being moved as a piston.v

The valve shown in Figure similar to that shown in Figur Af is substantially Y e 1, except that .it

is provided with a control unit 60m-lieu of a disc 38 for controlling the opening and `closing actions of the valve, respectively. The valve of Figure 4 `further differs from/the valve of Figure 1 in that effective t0 oppose the opening of the valve to some extent. However, more important than these is the function of the spring 6| to offset any possible upward force resulting from the buckling eiect of the diaphragm which might require a substantial excess of pressure in,the diaphragm chamber 45' above that in the inlet I chamber i" to initiate the downward movement of the diaphragm. Another important function of the spring 6| is to supplementthe lclosing pressure in the diaphragm chamber 4f5'tby providing an ever-present potential pressure sufilcient to overcome the slightly increased resistance to closing as the choke member 28 and the valve disc are urged against the uidowing through the valve seat vopening 8, to eiect the final closing of the valve. The spring 6| is also helpful in the event that the pipe line becomes in such condition. that the difference in pressure in the inlet and outlet -o the valve is so slight that, if the valve were to remainopen, a

back flow would occur. 1n such case, the spring.. will provide the pressure differential necessari" to initiate the closing movement of the v'alve so that no substantial back ow can occur.

y The pressure fluid from the outletV chamber 2" 0f mitted to the diaphragm chamber 45 through passageways 30', 31', 03 and 06 similar to the j corresponding passageways in the valve of Figure 1. However, before the iiuid can enter the diaphragm -chamber 45 itmust pass through the control unit 60.

The control unit 60 comprises a body portion 65 and a base portion 66 which is mounted upon the cap C by cap screws.81. The cap itself is mounted -upon the body B' by a series of cap screws 3'; A gasket 68 having openings aligned with the passageways 31"and 03 is clamped between the cap C and-the base 66 in leak-proof relation.

the valve shown in Figure 4 may be trans-4 V The structuralv details of the control unit are vv best illustrated in Figure 6. Here, the body 65 is shown provided with passageways 69 and 10 adapted to be placed in alignment with the openings in the gasket 68 and the passageways 31' and 43 in the cap C. The Ypassageway 68 communicates with a; chamber 1| through a port 12. A needle valve 18 isv threadedly mounted as in-l dicated at 14 in a boss 15 projecting from the body 85. The needle valve 13 has a tapered end 16 adapted to be moved relatively to the port 12 to regulate the iiow of iiuid through said vport. A hollow nut 11 is threadedly mounted on'the boss 15 and one end of the needle valve 13 pro- .jects through an opening 18 in said nut. A body of packing 19'within said nut is adapted to be .compressed to prevent leakage through said nut.

The end of the nedle valve 13 may be provided with a slot 80 to facilitate adjustment thereon A bushing 8| is mounted at the upper end of end of a spring 85 is connected thereto. The opposite end of saidspring is received in a reces! 86 formed in mounted in a boss 88 projecting upwardly from the body 65. The construction of the 'check valve disc' 83 and spring 85 is such that said disc is permitted to leave its seat 82 when occasion requires, but is constrained from becoming misaligned with said seat by said spring.

The passageway 10 communicates with a chamber 3| through a port 92. A needle valve 93 similar to the needle valve 13 is adjustably mounted in a boss 95 to control the flow of iiuid through the port 92. l

A bushing |0| is mounted at the top of the chamber 9| and its upper edge forms a seat |02 for a disc-type check valve |03 similar to the check valve 83. A spring |05 is connected to the disc check valve |03 and is associated with a plug |01 in avmanner similar' to the spring 85.

It will be observed from Figure 6 that the passageways 69 and 10 overlap, as indicated at |08, the passageway 10 communicating withv a chamber |09 in which the check valve 83 is mounted. The passageway 69 communicates with a` chamber I I0 in which the check valve |03 is mounted.

The arrows in" the various passageways of the control unit shown in Figure 6 indicate the di rection of iiow of the fluid when lthe main valve is opening. Thus, it will be apparent that, when the valve stem S is rising, fluid-Will be expelled fromv the diaphragm chamber 415' and will flow through passageway 43 into the passageway 10 of the v,control unit. From here, the fluid will pass through the port 92 at a rate permitted by the needle valve 93. The pressure of this fluid will lift the check valve |03 from its seat and permit the fluid-to flow into the chamber ||0, from whence itwill flow uinto the passageway 69 and then drain back linto the outlet chamber 2"' through the passagewaysl31 and 34. It will be `observed that, while the uid from the passageway 10 raises the check valve |03 from its seat against the pressure of spring |05, the pressure'of this iluid transmitted to the chamber |09 acts upon the check valve 83 -to maintain it tightly against its seat. f y

During the closing of the valve, the operation will be the reverse. That is to say, fluid will flow from the outlet chamber 2" through the passageways 34 and 31 into the passageway 69 of the control unit.v The fluid will then ow through the port 12 at the rate permitted' by the needle valve'13 and williraise the check valve 83 from its seat against the pressure of the spring 85. Simultaneously, uid from the pas sageway 69 will act downwardly upon the check valve |03 and maintain it upon its seat.

It will be apparent from the foregoing that adjustment of the needle valve 93 will control the rate of opening of the main check valve and that the adjustment of the needle valve 13 will l control the rate of closing of the 4main check the chamber 1| and its upper edge 82 is adapted to form a seat for a check valve disc 83. Artemv 84 extends upwardly from the disc 83 and one.

valve.` The rate of closing and the rate of yopening may thus be independently adjusted to provide, for example, a valve operation in which the main'valve will close gradually and at a very` `slow rate to slowly cut off the flow of fluid through the valve, and the opening of the valve may be controlled so that it will occur at a relatively faster rate. As a further variation, of course, the opening and closing of the valve may be timed to occur at the same rate. In any event, the operation of the valve will be automatic, once the needle valves 'I8 and"83 have been set.

the base of a plug 81 threadedly.

When the needle valve is adjusted to provide for slow closing of the v lve, the valve will close gradually against an attempted back ilow` through the main valve and thus eliminate noisy tween said outlet chamber and the interior of f said hollow tubular member; a spring in said housing means normally urgingsaid valve stem downwardly; a diaphragm in said housing means operation and any possibility of the valve slam- 5 operably connected with said valve stem; a presming shut.

for a uniform rate .of closing as well as a uniform rate of opening of the main valve.

4It will be understood that the principles of the from the spirit of the invention and the scope of the appended claims.

I claim:

The control unit 6U thus providesV sure chamber above said diaphragm; and intercommunicating passageways in said housing means arranged to at all times establish com munication between said outlet chamber and said Vinvention may be embodied in valves different' l0 pressure chamber.'

4. A pressure responsive valve comprising: a body; a cap member; adiaphragm between said body and cap member, said body having an inlet chamber, an outlet chamber, and a valve 1. A pressure responsive checkI valve compris 15 seat intermediate said chambers; a valve disc ing: an inletchamber, an outlet chamber, and a valve seat between said chambers; valve means cooperable with said valve seat for controlling the ilow of iluid between said chambers; adia phragm connected with said valve' means for actuating thel same; a pressure chamber above said diaphragm, the lower side of said diaphragm in the zone thereof outwardly of said valve,seat being at alltimes subject to the pressure in said inlet chamber; a passageway having one end communicating with said outlet chamber; a `second passageway having one end communicating with said pressure chamber; and means in com-` munication with and interconnecting the opposite ends of said passageways including passage means and means adjustable to a xed position relative to said passage means to control the supply of pressure fluid from said outlet .chamber to said pressure chamber at substantially a deslredrate, `whereby said valve means will be positively moved from an openv to aclosed position at substantially a corresponding desired rate. l.

2.A pressure responsive check valve compris-c adapted to engage saidavalve seat; a valve'stem connected with said diaphragm and said valve disc; guide means in said cap member and body,

respectively, for the oppositeendsof said. valve stem. the guide means in said body including a removable plug having a reduced cylindrical portion extending a substantial distance into said outlet chamber; a sprlngnormally urging said valve stem downwardly; a pressure. chamber in said cap member above said diaphragm; and

means includingpassageways in said body and cap member at all times establishing communication between said outlet chamber and said pressure chamber.

5. A pressure responsive valve comprising: a

. body; a cap member; a diaphragm between said body and cap member, said body having an inlet chamber, an outlet chamber, and a valve seat intermediate said chambers; a valve disc adapted to engagesaid valveseat; a valve: stem connected with said diaphragm and said valve disc; guide means in said cap member and body, respectively, for the opposite ends oi said valve stem, the guide means in said body including a ing: an inlet chamber, an outlet chamber, and removable plug having an` elongated cylindrical `a valve seat between said chambers; valvel means cooperable with said valve seat for controlling the ow of fluid between said chambers; a diaphragmconnected with said valve means for actuating the same; a pressure chamber above said diaphragm, the lower side of said diaphragm in the zone'thereof outwardly of said valve seat` being at all times subject to the pressure in said inlet chamber; a passageway having one end communicating with said outlet chamber; la

second passageway having one end communicatling with said pressure, chamber; and control means including a passage means for interconnecting the opposite ends of said` passageways and means adjustable t'o a fixed position relative to said passage means to control the exhaust oispentpressure fluid from said pressure cliamberinto said outlet chamber at substan threaded into said housing means below said valveseat an'd extending `a substantial distance into said outlet chamber for guiding the lower end of said valve stem,4 said hollowtubular meml ber4 being provided with a vent opening at a point 'adjacent the bottonr of said outlet chamber, whereby to establish communication b e (5 portion extending a substantialV distance into said outlet chamber; a spring in said cap member engaging the upper end of said valve stem land normally urging said valve stem down 45 wardly; a pressure chamber in said cap member above said diaphragm, the lower sideof said diaphragm in the zone thereof outwardly of said valve seat being yat all `times subject to the pressure in said lnletchamber; passageways in said body and cap member for establishingY communication between said outlet chamberI and said pressure chamber; and means opera-tively interconnecting 'said passageways for establishingy intercommunication between said outlet and L pressure chambers at all times.

6. A pressure responsive valve comprising a body; a cap member; a diaphragm between. said body and cap member, said body having an'inlet chamber and an outlet chamber, and a valve seat intermediate said chambersfa valve disc y adapted to engage said lvalve seat; a valve stem connected with said diaphragm and said valve c `disc; guide means'in said body for said valve stem; a Apressure chamber in said cap member above said diaphragm; passageways insaid body andy cap lmember for establishing communicai vtion between said outlet chamber and said pressure chamber; a unit mounted upon said cap member cooperable with said passageways for controlling the rate ofMowof `operating fluid between said outlet chamber and said pressure chamber, said unit including a housing having a pair of passageways formed 'therein and arranged to be interconnected within said housing; means in said housing for establishing communication between the passageways in said housing to establish flow of iluid in one direction therethrough from said outlet chamber to said pressure Vchamber at one rate; and other-means in said housing for establishingcommunication between said housing passageways for controlling ow in the opposite direction from said pressure chamber to said outlet chamber at a different l rate. t

'7. A pressure-responsive valve comprising a main valve body; a cap member; a diaphragm between said body and capmember, said body having an inlet chamber and an outlet chamber,

and a valve seat intermediate said chambers;

a valve disc'adapted to engage said valve seat:

a valve stem connected with said diaphragm and said valve disc); guide means in said body for said valve stem; a pressure chamber in said cap member above said diaphragm; passageways in said body and cap member for establishing communication between said outlet chamber and said pressure chamber; and a unit mounted upon said cap member for controlling the rate o flow of operating iluid between said outlet chamber and said pressure chamber, said unit including a housing having a pair of passageways formed therein and communicating with said passageways in said body and cap member to alternately admit fluid into and discharge fluid from said housing. a separate port in said housing opening into each of the passageways in said housing, separate needle valves fon controlling the rate of ow from said housing passageways into their respective ports, and a pair -of check valves in said housing operatively associated with said` assai necting the upper spaced ends of said two vpassageways of said cover.

9. A check valve responsive' to differential pressure in the inlet and outlet chambers thereof comprising: a valve body; a. cover; a diaphragm disposed between said valve body and cover, said valve body having an inlet chamber,

an outlet chamber, and a valve seat betweeny said chambers, said lcover having a cavity providing a pressure chamber for operating fluid above said diaphragm; a valve stem connected with said diaphragm and movable axially of said' valve seat, said body having a passage extending therethrough communicating at its lower end with said outlet .chamber and said cover having two passageways extending therethrough, one of said passageways communicating at its lower end with the upper end of said passage in said valve body and the other of said passageways opening at its lower end into said pressure chamber; an element mounted upon said cover provided with passage means registering with and intercom.

` necting the upper ends of said two passageways port of said other passageway of said housing into said mst-mentioned passageway oir said housing and thence to said outlet chamber, whereby to automatically andrespectively control the opening and closing of said main valve at a desired predetermined rate.

8. A ,check valve responsive to diflerential pressure in the inlet and outlet chambers thereof comprising: a valve body; a cover including a substantially iiat external face portion; a diaphragm disposed between said valve body and cover, said valve-body having an inlet chamber, an outlet chamber, and a valve seat between said chambers, said cover having 4a cavity providing a pressure chamber for operating duid above said diaphragm; a valve stem connected with said diaphragm and movable axially oi' said valve seat, said body having a passage exten therethrough communicating. at its lower end with said outlet chamber and said cover having two passageways extending therethrough with their upper ends terminatingin spacedrelation in said tace portion, one of said passageways registering at its lower end with the upper end of said passage in said valve bodyand the other of said passageways opening at its lower end into said diaphragm pressure chamber; and an element detachably mounted upon said covery in sealing relation with said` tace portion providedwith passage means registering with and interconoi said cover; and rneanscarried by said element for adjusting the rate of ow through said passage means. y

10. A valve comprising', a cover member; a bdy, said body having an inlet chamber and an outlet chamber, and a valve seat intermediate said chambers; pressure operable means cooperable with said valve seat for controlling the' flow'therethrough, said cover member having a pressure chamber for operating iluid for actuating said pressure operable means; passageways in said body and cover member for vestablishing communication between said outlet chamber and said pressure chamber; a unit mounted upon said cap member cooperable with said passageways for controlling the rate of ilow of operating iiuid between said outlet chamber and said pressure chamber, said unit including a housing having a lpair or ranged to be interconnected within said housing; means in said housing for establishing communication between the passageways in said housing to establish ilow of uid in one direction therethrough from said outlet chamber to said pressure chamber; and other means in said housing for establishing communication between said housing passageways for controlling the ilow in the opposite direction from said pressure chaming a chamber to receive operating iluid for aecting the,y actuating of said uid'pressure operablemeans, said body having a passageway extending therethrough communicating at its lower -end with said outlet chamber and said cover member having vtwo passageways extending therethrough withv their upper ends terminating in spaced relation in said face portion, one oi said passageways registering at its lower end withv the upper end of .said passage/,in said valve body and the other of said passageways opening at its lower end into said'pressure chamber; and an element detachably mounted upon said cover in sealing relation with said" face portion pro-l passageways formed therein and ar-v vided with passage means registering with and two passageways of said cover member.

12. A pressure responsive check valve (comprising: an inlet chamber, an outlet chamber, and a valve seat between said chambers; valve means `interconnecting the upper spaced ends of said cooperable with said Valve seat for controlling nesting the opposite ends of said passageways arranged to provide-for the supply ofpressure fluid from said outlet chamber tov said pressure chamber, said control' means including a further passage meansarranged to provide Vfor the exhaust of spent pressure iluid from said pressure chamber into said outlet chamber, said control means being provided with independently adjustable means operatively associated with each of I said passage means for admitting fiuidto and exhausting iluid from said pressure chamber so lthat the valve may be adjusted to close at a slow` rate and to open at a relatively faster rate.

13. A` valve responsive tothe differential pressure in the inlet and outlet chambers thereof comprising: a body having an inlet chamber, an outlet chamber, and a valve disk controlling the` flow between said chambers; a cap member having a substantiallyA at external face portion; a diaphragm between and engaged by said body and capmember; said diaphragm cooperating with said cap member to provide a pressure chamber for operatingfiuids;` means connecting said diaphragm with said valve disk; an element detachably mounted upon said face portionot said cap member; 'and adjoining, unobstructed passageways in said body and cap member having adjacent ends terminating in said face portion and respectively communicating with said outlet chamber and said pressure chamber at their other. ends, said element being arranged and constructed to establish communication between G. GRISWOLD. 

